Your search keyword '"Begoña M. Bosch"' showing total 2 results

1. Biological Roles and Delivery Strategies for Ions to Promote Osteogenic Induction

Author

Elia Bosch-Rué, Leire Diez-Tercero, Barbara Giordano-Kelhoffer, Luis M. Delgado, Begoña M. Bosch, Mireia Hoyos-Nogués, Miguel Angel Mateos-Timoneda, Phong A. Tran, Francisco Javier Gil, and Roman A. Perez

Subjects

bone, scaffolds, tissue engineering, biomaterials, tissue regeneration, therapeutic ions, Biology (General), QH301-705.5

Abstract

Bone is the most studied tissue in the field of tissue regeneration. Even though it has intrinsic capability to regenerate upon injury, several pathologies and injuries could hamper the highly orchestrated bone formation and resorption process. Bone tissue engineering seeks to mimic the extracellular matrix of the tissue and the different biochemical pathways that lead to successful regeneration. For many years, the use of extrinsic factors (i.e., growth factors and drugs) to modulate these biological processes have been the preferred choice in the field. Even though it has been successful in some instances, this approach presents several drawbacks, such as safety-concerns, short release profile and half-time life of the compounds. On the other hand, the use of inorganic ions has attracted significant attention due to their therapeutic effects, stability and lower biological risks. Biomaterials play a key role in such strategies where they serve as a substrate for the incorporation and release of the ions. In this review, the methodologies used to incorporate ions in biomaterials is presented, highlighting the osteogenic properties of such ions and the roles of biomaterials in controlling their release.

Published

2021

2. Biological Roles and Delivery Strategies for Ions to Promote Osteogenic Induction

Author

Elia Bosch-Rué, Leire Diez-Tercero, Barbara Giordano-Kelhoffer, Luis M. Delgado, Begoña M. Bosch, Mireia Hoyos-Nogués, Miguel Angel Mateos-Timoneda, Phong A. Tran, Francisco Javier Gil, and Roman A. Perez

Subjects

0301 basic medicine, Materiales biomédicos, 616.7, 02 engineering and technology, Review, tissue regeneration, bone, Bone tissue engineering, Extracellular matrix, 03 medical and health sciences, Regeneración (Biología), Cell and Developmental Biology, Tissue engineering, Ossos, Bone formation, Huesos, lcsh:QH301-705.5, Ions, Bones, therapeutic ions, Chemistry, Regeneració (Biologia), Regeneration (biology), Cell Biology, 021001 nanoscience & nanotechnology, Cell biology, Regeneration (Biology), 030104 developmental biology, Tejidos, Enginyeria de teixits, lcsh:Biology (General), Materials biomèdics, scaffolds, tissue engineering, 0210 nano-technology, Biomedical materials, Developmental Biology, biomaterials

Abstract

Bone is the most studied tissue in the field of tissue regeneration. Even though it has intrinsic capability to regenerate upon injury, several pathologies and injuries could hamper the highly orchestrated bone formation and resorption process. Bone tissue engineering seeks to mimic the extracellular matrix of the tissue and the different biochemical pathways that lead to successful regeneration. For many years, the use of extrinsic factors (i.e., growth factors and drugs) to modulate these biological processes have been the preferred choice in the field. Even though it has been successful in some instances, this approach presents several drawbacks, such as safety-concerns, short release profile and half-time life of the compounds. On the other hand, the use of inorganic ions has attracted significant attention due to their therapeutic effects, stability and lower biological risks. Biomaterials play a key role in such strategies where they serve as a substrate for the incorporation and release of the ions. In this review, the methodologies used to incorporate ions in biomaterials is presented, highlighting the osteogenic properties of such ions and the roles of biomaterials in controlling their release. info:eu-repo/semantics/publishedVersion

Published

2020